/*************************************************************************** CImage.c (c) 2000-2017 BenoƮt Minisini This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***************************************************************************/ #define __CIMAGE_C #include "main.h" #include "image.h" #include "CImage.h" static int _balance = 0; static double _brightness = 0; static double _contrast = 0; static double _gamma = 0; static double _hue = 0; static double _saturation = 0; static double _lightness = 0; BEGIN_METHOD(Image_new, GB_INTEGER w; GB_INTEGER h; GB_INTEGER col; GB_INTEGER format) int format = IMAGE_get_default_format(); if (VARGOPT(format, 0) == 1) format = GB_IMAGE_FMT_SET_PREMULTIPLIED(format); IMAGE_create(THIS_IMAGE, VARGOPT(w, 0), VARGOPT(h, 0), format); if (!MISSING(col)) IMAGE_fill(THIS_IMAGE, VARG(col)); END_METHOD BEGIN_METHOD_VOID(Image_free) IMAGE_delete(THIS_IMAGE); END_METHOD BEGIN_PROPERTY(Image_Width) GB.ReturnInteger(THIS_IMAGE->width); END_PROPERTY BEGIN_PROPERTY(Image_Height) GB.ReturnInteger(THIS_IMAGE->height); END_PROPERTY BEGIN_PROPERTY(Image_Depth) GB.ReturnInteger(32); END_PROPERTY BEGIN_METHOD(Image_Fill, GB_INTEGER col) IMAGE_fill(THIS_IMAGE, VARG(col)); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_FillRect, GB_INTEGER x; GB_INTEGER y; GB_INTEGER width; GB_INTEGER height; GB_INTEGER col) IMAGE_fill_rect(THIS_IMAGE, VARG(x), VARG(y), VARG(width), VARG(height), VARG(col), TRUE); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_PaintRect, GB_INTEGER x; GB_INTEGER y; GB_INTEGER width; GB_INTEGER height; GB_INTEGER col) IMAGE_fill_rect(THIS_IMAGE, VARG(x), VARG(y), VARG(width), VARG(height), VARG(col), FALSE); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_get, GB_INTEGER x; GB_INTEGER y) GB.ReturnInteger(IMAGE_get_pixel(THIS_IMAGE, VARG(x), VARG(y))); END_METHOD BEGIN_METHOD(Image_put, GB_INTEGER col; GB_INTEGER x; GB_INTEGER y) IMAGE_set_pixel(THIS_IMAGE, VARG(x), VARG(y), VARG(col)); END_METHOD BEGIN_PROPERTY(Image_Data) GB.ReturnPointer((void *)THIS_IMAGE->data); END_PROPERTY BEGIN_METHOD_VOID(Image_Desaturate) IMAGE_make_gray(THIS_IMAGE); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD_VOID(Image_Gray) fprintf(stderr, "warning: Image.Gray is deprecated, use Image.Desaturate instead.\n"); Image_Desaturate(_object, _param); END_METHOD BEGIN_METHOD_VOID(Image_Clear) //IMAGE_fill(THIS_IMAGE, 0XFF000000); IMAGE_delete(THIS_IMAGE); END_METHOD BEGIN_METHOD(Image_Replace, GB_INTEGER src; GB_INTEGER dst; GB_BOOLEAN noteq) IMAGE_replace(THIS_IMAGE, VARG(src), VARG(dst), VARGOPT(noteq, FALSE)); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Erase, GB_INTEGER color) IMAGE_make_transparent(THIS_IMAGE, VARGOPT(color, 0xFFFFFF)); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD_VOID(Image_Transparent) fprintf(stderr, "warning: Image.Transparent is deprecated, use Image.Erase instead.\n"); Image_Erase(_object, _param); END_METHOD BEGIN_METHOD(Image_Colorize, GB_INTEGER color) IMAGE_colorize(THIS_IMAGE, VARG(color)); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Mask, GB_INTEGER color) IMAGE_mask(THIS_IMAGE, VARG(color)); GB.ReturnObject(THIS); END_METHOD // Parameter correction #define CHECK_PARAMETERS(dst, dx, dy, dw, dh, src, sx, sy, sw, sh) \ if ( sw < 0 ) sw = src->width; \ if ( sh < 0 ) sh = src->height; \ if (dw < 0) dw = sw; \ if (dh < 0) dh = sh; \ if (dw != sw || dh != sh) \ { \ GB.Error("Stretching images is not implemented in gb.image"); \ return; \ } \ if ( sx < 0 ) { dx -= sx; dw += sx; sw += sx; sx = 0; } \ if ( sy < 0 ) { dy -= sy; dh += sy; sh += sy; sy = 0; } \ if ( dx < 0 ) { sx -= dx; sw += dx; dx = 0; } \ if ( dy < 0 ) { sy -= dy; sh += dy; dy = 0; } \ if ( (sx + sw) > src->width ) sw = src->width - sx; \ if ( (sy + sh) > src->height ) sh = src->height - sy; \ if ( (dx + sw) > dst->width ) sw = dst->width - dx; \ if ( (dy + sh) > dst->height ) sh = dst->height - dy; \ if (sw <= 0 || sh <= 0) \ return; BEGIN_METHOD(Image_Copy, GB_INTEGER x; GB_INTEGER y; GB_INTEGER w; GB_INTEGER h) CIMAGE *image; int x = VARGOPT(x, 0); int y = VARGOPT(y, 0); int w = VARGOPT(w, THIS_IMAGE->width); int h = VARGOPT(h, THIS_IMAGE->height); if (x < 0) { w += x; x = 0; } if (y < 0) { h += y; y = 0; } if ((x + w) > THIS_IMAGE->width) { w = THIS_IMAGE->width - x; } if ((y + h) > THIS_IMAGE->height) { h = THIS_IMAGE->height - y; } image = GB.New(GB.FindClass("Image"), NULL, NULL); IMAGE_create(&image->image, w, h, THIS_IMAGE->format); if (w > 0 && h > 0) IMAGE_bitblt(&image->image, 0, 0, -1, -1, THIS_IMAGE, x, y, w, h); GB.ReturnObject(image); END_METHOD BEGIN_METHOD(Image_Resize, GB_INTEGER width; GB_INTEGER height) GB_IMG tmp; int w = VARG(width); int h = VARG(height); if (w < 0) w = THIS_IMAGE->width; if (h < 0) h = THIS_IMAGE->height; //IMAGE_convert(THIS_IMAGE, IMAGE_get_default_format()); //fprintf(stderr, "format = %d\n", THIS_IMAGE->format); tmp.ob = THIS_IMAGE->ob; IMAGE_create(&tmp, w, h, THIS_IMAGE->format); IMAGE_bitblt(&tmp, 0, 0, -1, -1, THIS_IMAGE, 0, 0, w, h); IMAGE_delete(THIS_IMAGE); *THIS_IMAGE = tmp; GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Mirror, GB_BOOLEAN horz; GB_BOOLEAN vert) GB_IMG tmp; tmp.ob = THIS_IMAGE->ob; IMAGE_create(&tmp, THIS_IMAGE->width, THIS_IMAGE->height, THIS_IMAGE->format); IMAGE_mirror(THIS_IMAGE, &tmp, VARG(horz), VARG(vert)); IMAGE_delete(THIS_IMAGE); *THIS_IMAGE = tmp; GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD_VOID(Image_RotateLeft) GB_IMG tmp; tmp.ob = THIS_IMAGE->ob; IMAGE_create(&tmp, THIS_IMAGE->height, THIS_IMAGE->width, THIS_IMAGE->format); IMAGE_rotate(THIS_IMAGE, &tmp, TRUE); IMAGE_delete(THIS_IMAGE); *THIS_IMAGE = tmp; GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD_VOID(Image_RotateRight) GB_IMG tmp; tmp.ob = THIS_IMAGE->ob; IMAGE_create(&tmp, THIS_IMAGE->height, THIS_IMAGE->width, THIS_IMAGE->format); IMAGE_rotate(THIS_IMAGE, &tmp, FALSE); IMAGE_delete(THIS_IMAGE); *THIS_IMAGE = tmp; GB.ReturnObject(THIS); END_METHOD #if 0 BEGIN_METHOD(CIMAGE_transform, GB_FLOAT sx; GB_FLOAT sy; GB_FLOAT dx; GB_FLOAT dy) CIMAGE *image; int w, h; double dx = VARG(dx); double dy = VARG(dy); double f, s; GB.New(POINTER(&image), GB.FindClass("Image"), NULL, NULL); GB.ReturnObject(image); f = fabs(dx); if (f > fabs(dy)) f = fabs(dy); s = 1 / sqrt(dx * dx + dy * dy); w = (int)(THIS_IMAGE->width * (1.0 + f) * s + 0.5); h = (int)(THIS_IMAGE->height * (1.0 + f) * s + 0.5); if (!w || !h) return; IMAGE_create(&image->image, w, h, THIS_IMAGE->format); IMAGE_transform(&image->image, THIS_IMAGE, VARG(sx), VARG(sy), VARG(dx), VARG(dy)); END_METHOD #endif BEGIN_METHOD(Image_DrawAlpha, GB_OBJECT image; GB_INTEGER x; GB_INTEGER y; GB_INTEGER srcx; GB_INTEGER srcy; GB_INTEGER srcw; GB_INTEGER srch) CIMAGE *image = VARG(image); if (GB.CheckObject(image)) return; IMAGE_draw_alpha(THIS_IMAGE, VARGOPT(x, 0), VARGOPT(y, 0), &image->image, VARGOPT(srcx, 0), VARGOPT(srcy, 0), VARGOPT(srcw, -1), VARGOPT(srch, -1)); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_DrawImage, GB_OBJECT image; GB_INTEGER x; GB_INTEGER y; GB_INTEGER w; GB_INTEGER h; GB_INTEGER srcx; GB_INTEGER srcy; GB_INTEGER srcw; GB_INTEGER srch) CIMAGE *image = VARG(image); if (GB.CheckObject(image)) return; IMAGE_bitblt(THIS_IMAGE, VARGOPT(x, 0), VARGOPT(y, 0), VARGOPT(w, -1), VARGOPT(h, -1), &image->image, VARGOPT(srcx, 0), VARGOPT(srcy, 0), VARGOPT(srcw, -1), VARGOPT(srch, -1)); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_PaintImage, GB_OBJECT image; GB_INTEGER x; GB_INTEGER y; GB_INTEGER w; GB_INTEGER h; GB_INTEGER srcx; GB_INTEGER srcy; GB_INTEGER srcw; GB_INTEGER srch) CIMAGE *image = VARG(image); if (GB.CheckObject(image)) return; IMAGE_compose(THIS_IMAGE, VARGOPT(x, 0), VARGOPT(y, 0), VARGOPT(w, -1), VARGOPT(h, -1), &image->image, VARGOPT(srcx, 0), VARGOPT(srcy, 0), VARGOPT(srcw, -1), VARGOPT(srch, -1)); GB.ReturnObject(THIS); END_METHOD BEGIN_PROPERTY(Image_Format) int fmt; if (READ_PROPERTY) { GB.ReturnConstZeroString(IMAGE_format_to_string(THIS_IMAGE->format)); } else { fmt = IMAGE_format_from_string(GB.ToZeroString(PROP(GB_STRING))); if (fmt < 0) { GB.Error("Unknown format"); return; } IMAGE_convert(THIS_IMAGE, fmt); } END_PROPERTY BEGIN_PROPERTY(Image_Debug) if (READ_PROPERTY) GB.ReturnBoolean(IMAGE_debug); else IMAGE_debug = VPROP(GB_BOOLEAN); END_PROPERTY BEGIN_METHOD(Image_Opacity, GB_FLOAT opacity) int alpha = VARG(opacity) * 255; if (alpha < 0) alpha = 0; else if (alpha > 255) alpha = 255; IMAGE_set_opacity(THIS_IMAGE, (uchar)alpha); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Invert, GB_BOOLEAN keep_color) IMAGE_invert(THIS_IMAGE, VARGOPT(keep_color, FALSE)); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Blur, GB_INTEGER radius) IMAGE_blur(THIS_IMAGE, VARGOPT(radius, 8)); GB.ReturnObject(THIS); END_METHOD BEGIN_PROPERTY(Image_Pixels) GB_ARRAY array; int size; if (!GB_IMAGE_FMT_IS_32_BITS(THIS_IMAGE->format)) { GB.Error("Image format must be 32 bits"); return; } size = THIS_IMAGE->width * THIS_IMAGE->height; if (READ_PROPERTY) { GB.Array.New(&array, GB_T_INTEGER, size); IMAGE_get_pixels(THIS_IMAGE, GB.Array.Get(array, 0)); GB.ReturnObject(array); } else { array = VPROP(GB_OBJECT); if (GB.CheckObject(array)) return; if (GB.Array.Count(array) < size) { GB.Error("Not enough pixels"); return; } IMAGE_set_pixels(THIS_IMAGE, GB.Array.Get(array, 0)); } END_PROPERTY BEGIN_METHOD_VOID(Image_BeginBalance) _balance++; GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD_VOID(Image_EndBalance) if (_balance <= 0) { GB.Error("Missing call to BeginBalance"); return; } _balance--; if (_balance == 0) IMAGE_balance(THIS_IMAGE, _brightness * 255, _contrast * 255, _gamma * 255, _hue * 180, _saturation * 255, _lightness * 255); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Brightness, GB_FLOAT value) if (_balance) _brightness = VARG(value); else IMAGE_balance(THIS_IMAGE, VARG(value) * 255, 0, 0, 0, 0, 0); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Contrast, GB_FLOAT value) if (_balance) _contrast = VARG(value); else IMAGE_balance(THIS_IMAGE, 0, VARG(value) * 255, 0, 0, 0, 0); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Gamma, GB_FLOAT value) if (_balance) _gamma = VARG(value); else IMAGE_balance(THIS_IMAGE, 0, 0, VARG(value) * 255, 0, 0, 0); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Hue, GB_FLOAT value) if (_balance) _hue = VARG(value); else IMAGE_balance(THIS_IMAGE, 0, 0, 0, VARG(value) * 180, 0, 0); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Saturation, GB_FLOAT value) if (_balance) _saturation = VARG(value); else IMAGE_balance(THIS_IMAGE, 0, 0, 0, 0, VARG(value) * 255, 0); GB.ReturnObject(THIS); END_METHOD BEGIN_METHOD(Image_Lightness, GB_FLOAT value) if (_balance) _lightness = VARG(value); else IMAGE_balance(THIS_IMAGE, 0, 0, 0, 0, 0, VARG(value) * 255); GB.ReturnObject(THIS); END_METHOD //--------------------------------------------------------------------------- GB_DESC CImageDesc[] = { GB_DECLARE("Image", sizeof(CIMAGE)), GB_CONSTANT("Standard", "i", 0), GB_CONSTANT("Premultiplied", "i", 1), GB_STATIC_PROPERTY("Debug", "b", Image_Debug), GB_METHOD("_new", NULL, Image_new, "[(Width)i(Height)i(Color)i(Format)i]"), GB_METHOD("_free", NULL, Image_free, NULL), GB_METHOD("_get", "i", Image_get, "(X)i(Y)i"), GB_METHOD("_put", NULL, Image_put, "(Color)i(X)i(Y)i"), GB_PROPERTY_READ("Width", "i", Image_Width), GB_PROPERTY_READ("Height", "i", Image_Height), GB_PROPERTY_READ("W", "i", Image_Width), GB_PROPERTY_READ("H", "i", Image_Height), GB_PROPERTY_READ("Depth", "i", Image_Depth), GB_PROPERTY_READ("Data", "p", Image_Data), GB_PROPERTY("Format", "s", Image_Format), GB_PROPERTY("Pixels", "Integer[]", Image_Pixels), GB_METHOD("Clear", NULL, Image_Clear, NULL), GB_METHOD("Fill", "Image", Image_Fill, "(Color)i"), GB_METHOD("Gray", "Image", Image_Gray, NULL), GB_METHOD("Transparent", "Image", Image_Transparent, "[(Color)i]"), GB_METHOD("Desaturate", "Image", Image_Desaturate, NULL), GB_METHOD("Erase", "Image", Image_Erase, "[(Color)i]"), GB_METHOD("Replace", "Image", Image_Replace, "(OldColor)i(NewColor)i[(NotEqual)b]"), GB_METHOD("Colorize", "Image", Image_Colorize, "(Color)i"), GB_METHOD("Mask", "Image", Image_Mask, "(Color)i"), GB_METHOD("Opacity", "Image", Image_Opacity, "(Opacity)f"), GB_METHOD("Invert", "Image", Image_Invert, "[(KeepColor)b]"), GB_METHOD("Copy", "Image", Image_Copy, "[(X)i(Y)i(Width)i(Height)i]"), GB_METHOD("Resize", "Image", Image_Resize, "(Width)i(Height)i"), GB_METHOD("Mirror", "Image", Image_Mirror, "(Horizontal)b(Vertical)b"), GB_METHOD("RotateLeft", "Image", Image_RotateLeft, NULL), GB_METHOD("RotateRight", "Image", Image_RotateRight, NULL), GB_METHOD("FillRect", "Image", Image_FillRect, "(X)i(Y)i(Width)i(Height)i(Color)i"), GB_METHOD("PaintRect", "Image", Image_PaintRect, "(X)i(Y)i(Width)i(Height)i(Color)i"), GB_METHOD("DrawAlpha", "Image", Image_DrawAlpha, "(Image)Image;[(X)i(Y)i(SrcX)i(SrcY)i(SrcWidth)i(SrcHeight)i]"), GB_METHOD("DrawImage", "Image", Image_DrawImage, "(Image)Image;[(X)i(Y)i(Width)i(Height)i(SrcX)i(SrcY)i(SrcWidth)i(SrcHeight)i]"), GB_METHOD("PaintImage", "Image", Image_PaintImage, "(Image)Image;[(X)i(Y)i(Width)i(Height)i(SrcX)i(SrcY)i(SrcWidth)i(SrcHeight)i]"), GB_METHOD("Fuzzy", "Image", Image_Blur, "[(Radius)i]"), GB_METHOD("BeginBalance", "Image", Image_BeginBalance, NULL), GB_METHOD("Brightness", "Image", Image_Brightness, "(Brightness)f"), GB_METHOD("Contrast", "Image", Image_Contrast, "(Contrast)f"), GB_METHOD("Gamma", "Image", Image_Gamma, "(Gamma)f"), GB_METHOD("Hue", "Image", Image_Hue, "(Hue)f"), GB_METHOD("Saturation", "Image", Image_Saturation, "(Saturation)f"), GB_METHOD("Lightness", "Image", Image_Lightness, "(Lightness)f"), GB_METHOD("EndBalance", "Image", Image_EndBalance, NULL), GB_END_DECLARE };